KR200461496Y1 - solenoid valve - Google Patents

Abstract

The present invention consists of a structure in which the metal bracket is removed, thereby simplifying the overall structure, reducing the overall weight, reducing the production cost, and improving the assemblability, while preventing the deterioration of the operation. Relates to a valve assembly.
To this end, the present invention provides a valve body for forming a fluid conduit for the flow of the fluid; The lower end is coupled to the upper surface of the valve body and the diaphragm is accommodated while the coupling portion is provided to provide a support space for supporting the operation of the diaphragm, the central side portion is closed and the lower end is open state The guide space of the bobbin is formed, the outer side of the guide space is a bobbin made of a coil for generating an electromagnetic force by the current applied through the terminal; A cover body installed in the guide space of the bobbin, a lower end of which is provided with a close contact member for selectively closing the orifice of the diaphragm, and a cover body formed to have a receiving space closed from the outer space; In addition, the solenoid valve assembly is provided, characterized in that it is formed in the cover body and formed of a permanent magnet and its polarity includes a magnetic plunger: arranged to move upward when an electromagnetic force is generated in the coil.

Description

Solenoid valve

The present invention relates to a solenoid valve installed in a pipeline through which a fluid flows to selectively control a fluid flowing through the pipeline by an electrical signal.

In general, the solenoid valve is a valve for opening and closing the flow of the fluid using the principle of the electromagnet according to the electrical signal.

The solenoid valve as described above has a diaphragm 11 as the plunger 22 moves up and down by an electromagnetic force generated in the coil 21a when power is supplied to the coil 21a wound on the inner circumferential surface of the bobbin 21. It is operated to open the conduit of the fluid pipe 10, and when the power supply to the coil 21a is interrupted, the plunger 22 is moved downward and the diaphragm 11 closes the pipe of the fluid pipe 10 To operate.

In addition, the solenoid valve couples the bobbin 21 to the fluid tube 10 and collects the pores in the center of the bobbin 21 without scattering the magnetic path generated by the electromagnetic force generated in the coil 21a. It is configured to include a metal bracket 30 so that the lifting movement of the plunger 22 can be made more smoothly.

At this time, the metal bracket 30 is bent to wrap around the top, bottom and a portion of the bobbin 21, and fixedly coupled to the bobbin 21 using a pair of sleeves (31, 32) It is configured to be.

However, the conventional solenoid valve configured as described above has a problem that the additional installation of the metal bracket 30 not only increases the overall manufacturing cost but also increases the weight and takes time to assemble.

That is, when the metal bracket 30 is removed, scattering of porcelain is generated so that the plunger 22 may not be smoothly provided with the influence of the electromagnetic force generated in the coil 21a, resulting in a malfunction of the plunger 22. Because of this, there was no choice but to install the metal bracket 30, which caused various problems described above.

The present invention is devised to solve the various problems according to the prior art described above, the object of the present invention consists of a structure in which the metal bracket is removed, the overall structure is simplified, and the overall weight and production cost reduction and It is to provide a solenoid valve of a new structure that can achieve the improvement of the assembly, while preventing the degradation of the operation.

According to the solenoid valve of the present invention for achieving the above object a valve body for forming a fluid conduit for the flow of the fluid; The lower end is coupled to the upper surface of the valve body and the diaphragm is accommodated while the coupling portion is provided to provide a support space for supporting the operation of the diaphragm, the central side portion is closed and the lower end is open state The guide space of the bobbin is formed, the outer side of the guide space is a bobbin made of a coil for generating an electromagnetic force by the current applied through the terminal; A cover body installed in the guide space of the bobbin, a lower end of which is provided with a close contact member for selectively closing the orifice of the diaphragm, and a cover body formed to have a receiving space closed from the outer space; And, while being installed in the cover body is formed as a permanent magnet and its polarity is characterized in that it comprises a magnetic plunger: arranged to move upward when the electromagnetic force is generated in the coil.

Here, the upper portion of the bobbin, the upper portion of the guide space portion is characterized in that the magnetic plunger is attached to the magnetic plunger to reinforce the upward movement force of the magnetic plunger further comprises an attachment member formed of a material do.

In addition, the cover body is characterized in that the upper surface is formed to be open, and the opening and closing cap is coupled to the upper surface of the open cover body.

In addition, the magnetic plunger is smoothly spaced apart from the attachment member when the magnetic force is released from the coil by keeping the set interval between the magnetic plunger in the cover body and the attachment member embedded in the upper surface of the bobbin on the upper surface of the opening / closing cap. Characterized in that the protrusion is formed so as to protrude.

In addition, the magnetic plunger is provided between the upper surface of the opening and closing cap and the upper surface of the bobbin to maintain a predetermined interval between the magnetic plunger in the cover body and the attachment member built in the upper surface of the bobbin so that the magnetic force on the coil is released. It is characterized in that it is further provided with an elastic member to be smoothly spaced from the attachment member.

In addition, a coupling protrusion protrudes from a circumferential surface of the coupling portion forming the bobbin, and a spiral coupling groove is formed on the upper surface of the valve body to engage the coupling protrusion so that the coupling between the bobbin and the valve body is made rotatable. It is characterized in that it is configured to be.

As described above, the solenoid valve assembly according to the present invention has the effect that the entire assembly operation can be made more simply due to the deletion of the metal bracket.

That is, in the case of a solenoid valve assembly having a metal bracket as in the prior art, a pair of sleeve installation and a plurality of screw fastenings to be coupled to the metal bracket and the bobbin have to be performed, so that the overall work maneuver increases, but it takes a long time. In the present invention, since the metal bracket is deleted, the work for coupling between the metal bracket and the bobbin can be omitted.

In particular, the solenoid valve assembly of the present invention forms a plunger as a permanent magnet in which the concentration of magnetic flux in the guide space portion is reduced due to the removal of the metal bracket, and the insufficient magnetic force is attached to the upper surface of the bobbin. It can be solved by additionally provided, and damages such as rust and blue, which can be caused by the permanent magnets present in the fluid, can be solved by the cover body.

In addition, the solenoid valve assembly of the present invention is configured to be directly coupled to the coupling portion of the bobbin to the valve body can also be significantly simplified the coupling operation between the bobbin and the valve body, only one screw for the stable fixing of the bobbin Even if installed, the stable fixed state can be maintained.

1 is an exploded view illustrating a structure of a conventional general solenoid valve
Figure 2 is a cross-sectional view shown to explain the structure of a conventional general solenoid valve
Figure 3 is an exploded view showing for explaining the structure of the solenoid valve assembly according to a preferred embodiment of the present invention
4 is a cross-sectional view illustrating the structure of the solenoid valve assembly according to the preferred embodiment of the present invention.
5 is a perspective view illustrating the coupling structure between the bobbin and the valve body of the solenoid valve assembly according to a preferred embodiment of the present invention
6 and 7 are cross-sectional views for explaining the operating state of the solenoid valve assembly according to a preferred embodiment of the present invention

Hereinafter, a preferred embodiment of the solenoid valve assembly of the present invention will be described with reference to FIGS. 3 to 7.

3 and 4, the solenoid valve assembly according to the present invention is largely divided into a valve part 100 and a solenoid part 200.

Here, the valve unit 100 is a site where the selective opening and closing of the fluid pipeline by the diaphragm 110 while forming a fluid pipeline through which the fluid flows, and the solenoid unit 200 is the diaphragm 110. The diaphragm 110 is a series of configurations to selectively open the fluid conduit while selectively opening and closing the orifice 111 of the.

At this time, the valve unit 100 is configured to include a valve body 120, the valve body 120 has an inlet pipe 121 through which the fluid is introduced, and an outlet pipe 122 through which the fluid is discharged The high pressure chamber 123 is formed at the portion communicating with the inflow pipe 121, and the low pressure chamber 124 is formed at the portion communicating with the outlet pipe 122. In particular, the high pressure chamber 123 and the low pressure chamber 124 is selectively communicated or blocked by the diaphragm 110.

The solenoid portion 200 includes a bobbin 210, a magnetic plunger 220, and a cover body 230.

Here, the bobbin 210 constituting the solenoid portion 200 is a portion in which the coil 211 for generating the electromagnetic force is embedded.

The bobbin 210 is formed to form a hollow state, in which the upper portion of the bobbin 210 is closed and a guide space portion 212 in an open state is formed at the bottom thereof.

The coil 211 is a portion that generates an electromagnetic force by the electric current applied through the terminal 213 and is installed in a state wound around the guide space 212 of the inside of the wall of the bobbin 210. do.

In addition, the lower end of the bobbin 210 is coupled to the upper surface of the valve body 120 and the diaphragm 110 is accommodated while providing a support space for supporting the operation of the diaphragm 110 Coupling portion 214 is formed.

In this case, a coupling protrusion 215 is formed on the circumferential surface of the coupling portion 214 forming the lower end of the bobbin 210, and a spiral for coupling with the coupling protrusion 215 is formed on the upper surface of the valve body 120. The coupling groove 125 of the recess is formed so that the coupling between the bobbin 210 and the valve body 120 can be made in a rotary manner (rotating the bobbin to the valve body). This is as shown in Figure 5 attached.

Next, the magnetic plunger 220 constituting the solenoid portion 200 is moved up by the electromagnetic force generated in the coil 211 while the diaphragm 110 can selectively open the fluid flow path of the valve body 120. It is a series of configurations that enable it.

Particularly, in the embodiment of the present invention, the magnetic plunger 220 is formed as a permanent magnet and its polarity is arranged to be moved upward when an electromagnetic force is generated in the coil 211 (eg, the electromagnetic force of the coil is upper When N, the lower portion flows in the S direction, the S pole of the magnetic plunger is disposed on the upper side, the N pole is disposed on the lower side, and is installed in the cover body 230.

The configuration of the magnetic plunger 220 as described above makes it possible to remove the metal bracket 30 (see FIGS. 1 and 2) provided in a basic configuration to a conventional conventional solenoid valve to simplify the overall structure. In addition, the manufacturing cost will be reduced.

That is, the metal bracket 30 and the pair of sleeves 31 and 32 coupling the metal bracket 30 and the bobbin serve to concentrate the magnetic flux generated in the coil into the guide space. Since the metal bracket 30 and the sleeves 31 and 32 are not present, the operation of the plunger may not be performed smoothly.

Therefore, in the embodiment of the present invention by configuring the plunger as a magnetic plunger 220 made of a permanent magnet, even if the metal bracket is removed so that the operation of the magnetic plunger 220 can be made smoothly.

Of course, even if the magnetic plunger 220 is formed as a permanent magnet, when the metal bracket is removed, since the electromagnetic force generated from the coil 211 is scattered, the guide space portion 212 that is the central portion of the bobbin 210. The electromagnetic force in Essence must be weakened a lot, which may cause a problem that the rapid operation of the magnetic plunger 220 is not made.

Therefore, in the embodiment of the present invention, the magnetic plunger 200 is a magnetic force to reinforce the upward movement force of the magnetic plunger 220 on the upper portion of the guide space 212 of the upper surface of the bobbin 210 It is characterized in that the attachment member 240 formed of a material that can be attached by further comprising a configuration.

At this time, the attachment member 240 may be a magnet, or may be a conventional metal plate, the attachment member 240 is the magnetic plunger 220 when the magnetic plunger 220 is moved by the electromagnetic force of the coil 211 By reinforcing the force to move the plunger 220 to the upper by the magnetic force is to make the upward movement of the magnetic plunger 220 more smoothly.

Next, the cover body 230 constituting the solenoid portion is a series of configurations for preventing the magnetic plunger 220 is exposed to the external environment (particularly, moisture).

That is, when the magnetic plunger 220 is in contact with the fluid at all times because the magnetic plunger 220 is always provided in the fluid flowing part, the magnetic plunger 220 may be in the fluid for a long time due to the characteristics of the permanent magnet. When present, there is a problem in that rust and blue may be generated and a molten state may be generated due to corrosion.

Therefore, in the present invention, the cover body 230 is configured to wrap the magnetic plunger 220 to be closed from the external environment so that the above problems can be prevented.

That is, the cover body 230 is formed so that the inner space in which the magnetic plunger 220 is accommodated is closed from the outer space, thereby preventing the magnetic plunger 220 from coming into contact with the fluid to prevent rust or corrosion. It is to prevent the occurrence of the molten state due to.

The cover body 230 as described above is installed to be elevated in the guide space 212 of the bobbin 210, the lower end of the diaphragm 110 to selectively open and close the fluid line of the valve body 120 The contact member 231 is coupled to selectively close the orifice 111.

Particularly, in the embodiment of the present invention, the cover body 230 is formed so that the top surface is opened, and the opening and closing cap 232 is fixedly coupled to the top surface of the open cover body 230.

That is, the internal space of the cover body 230 can be selectively opened and closed to replace the magnetic plunger 220 to be described later.

On the other hand, in the embodiment of the present invention so that the spaced protrusion 233 protrudes on the upper surface of the opening and closing cap 232, or between the upper surface of the opening and closing cap 232 and the upper surface of the bobbin 210 ( Further provided is further provided with 234.

When the magnetic plunger 220 is attached to the attachment member 240 while the magnetic plunger 220 is moved upward, the magnetic plunger 220 and the attachment member 240 are stopped even when the power supply to the coil 211 is stopped. Since the attachment of the liver may be maintained, the magnetic plunger 220 in the cover body 230 and the attachment member 240 built in the upper surface of the bobbin 210 may maintain a predetermined distance to the electromagnetic force to the coil 211. When the magnetic plunger 220 is released is to be smoothly spaced apart from the attachment member 240.

Operation of the solenoid valve assembly of the present invention configured as described above is made the same as the operation of a conventional solenoid valve assembly.

That is, when a rated current is input to the coil 211 through the terminal 213 formed in the bobbin 210 in the initial state as shown in FIG. 4, an electromagnetic force is generated in the coil 211, and in this case, the coil As the electromagnetic force of 211 flows in the upper direction N and the lower direction S, the magnetic plunger 220 disposed so that the S pole is positioned at the upper side is moved upward as shown in FIG. 6.

In particular, when the upward movement of the magnetic plunger 220 is made as described above, the magnetic plunger 220 is adjacent to the attachment member 240 provided on the upper portion of the guide space 212 of the bobbin 210. The force to be attached to the 240 is provided, thereby reinforcing the upward movement force of the magnetic plunger 220 so that the more accurate upward movement of the magnetic plunger 220 can be achieved.

In addition, the cover body 230 surrounding the magnetic plunger 220 is moved upward in the guide space 212 formed in the bobbin 210 by the upward movement force of the magnetic plunger 220.

In addition, when the cover body 230 is moved upward as described above, the contact member 231 provided on the bottom surface of the cover body 230 is spaced apart from the orifice 111 of the diaphragm 110, the orifice 111 is The fluid that is present in the space in the coupling portion 214 of the bobbin 210 is rapidly flowed through the orifice 111 into the low pressure chamber 124 of the valve body 120.

In addition, when the fluid existing in the space in the coupling part 214 flows rapidly into the low pressure chamber 124 of the valve body 120, the pressure in the coupling part 214 is rapidly lowered and the The pressure difference with the high pressure chamber 123 is sharply increased, which causes the diaphragm 110 to be gradually moved upward into the space in the coupling part 214 while the bending deformation occurs from the circumferential side thereof. This is as shown in Figure 7 attached.

As a result, the fluid may flow while the low pressure chamber 124 and the high pressure chamber 123 in the valve body 120 communicate with each other by the above-described series of processes.

On the other hand, when the power provided to the coil 211 is cut off in the open state of the fluid passage as described above, the force to move the magnetic plunger 220 is removed while the electromagnetic force flowing along the coil 211 is released Thus, the magnetic plunger 220 is dropped by its own weight.

Of course, even if the power provided to the coil 211 is cut off, there is an adhesive force between the magnetic plunger 220 and the attachment member 240 therebetween. However, between the magnetic plunger 220 and the attachment member 240 due to the spacing protrusion 233 formed in the opening and closing cap 232 of the cover body 230 is spaced apart from each other by a predetermined distance from each other and By the restoring force provided by the elastic member 234 installed between the magnetic plunger can be smoothly moved downward as soon as the electromagnetic force of the coil is released.

In addition, the downward movement of the cover body 230 is performed by the downward movement of the magnetic plunger 220 so that the contact member 231 coupled to the bottom surface of the cover body 230 is the orifice of the diaphragm 110. In addition to blocking 111, the diaphragm 110 moves downward from the space in the coupling portion 214 to block the fluid passage in the valve body 120.

On the other hand, the solenoid valve assembly of the present invention as described above has the advantage that the overall assembly operation can be made more simply due to the removal of the metal bracket.

That is, in the case of a solenoid valve assembly having a metal bracket as in the prior art, a pair of sleeve installation and a plurality of screw fastenings to be coupled to the metal bracket and the bobbin have to be performed, so that the overall work maneuver increases, but it takes a long time. In the present invention, since the metal bracket is deleted, the operation for coupling between the metal bracket and the bobbin 210 may be omitted.

In particular, by configuring the coupling portion 214 of the bobbin 210 to be directly rotatable to the valve body 120, the coupling operation between the bobbin 210 and the valve body 120 can also be significantly simplified, the The screw for the stable fixing of the bobbin 210 has the advantage that the stable fixed state can be maintained even if only one installation.

As such, the solenoid valve assembly according to the present invention has the advantage that the overall structure is simplified through the removal of the metal bracket, and the assembling work can be easily performed.

100. Valve section 110. Diaphragm
111. Orifice 120. Valve Body
121. Inlet pipe 122. Outlet pipe
123. High Pressure Chamber 124. Low Pressure Chamber
125. Coupling groove 200. Solenoid section
210. Bobbin 211. Coil
212.Information Space Section 213.Terminal
214. Coupling part 215. Coupling protrusion
220. Magnetic plunger 230. Cover body
231. Contact members 232. Opening cap
233. Spacer protrusion 234. Elastic member
240. Attachment members

Claims (6)

A valve body forming a fluid conduit for flow of the fluid;
The lower end is coupled to the upper surface of the valve body and the diaphragm is accommodated while the coupling portion is provided to provide a support space for supporting the operation of the diaphragm, the central side portion is closed and the lower end is open state The guide space of the bobbin is formed, the outer side of the guide space is a bobbin made of a coil for generating an electromagnetic force by the current applied through the terminal;
A cover body installed in the guide space of the bobbin, a lower end of which is provided with a close contact member for selectively closing the orifice of the diaphragm, and a cover body formed to have a receiving space closed from the outer space; And,
Solenoid valve assembly, characterized in that configured to include a magnetic plunger: is installed in the cover body and formed of a permanent magnet and the polarity is arranged to move upward when the electromagnetic force is generated in the coil. The method of claim 1,
In the upper portion of the bobbin immediately above the guide space portion
Solenoid valve assembly further comprises an attachment member formed of a material to which the magnetic plunger can be attached by a magnetic force to reinforce the upward movement force of the magnetic plunger. The method of claim 2,
The cover body is formed so that the upper surface is open and the solenoid valve assembly, characterized in that the opening and closing cap is fixed to the upper surface of the open cover body. The method of claim 3, wherein
The magnetic plunger may be smoothly spaced apart from the attachment member when the magnetic force of the coil is released by maintaining the set interval between the magnetic plunger in the cover body and the attachment member embedded in the upper surface of the bobbin on the upper surface of the opening / closing cap. Solenoid valve assembly, characterized in that the protrusion is formed so as to project. The method according to claim 3 or 4,
The magnetic plunger is attached between the upper surface of the opening / closing cap and the upper surface of the bobbin to maintain a predetermined distance between the magnetic plunger in the cover body and the attachment member built in the upper surface of the bobbin. Solenoid valve assembly further comprises a resilient member to be smoothly spaced from the member. The method of claim 1,
Coupling protrusions are formed on the circumferential surface of the coupling part forming the bobbin and a spiral coupling groove is formed on the upper surface of the valve body so that the coupling between the bobbin and the valve body can be rotated. Solenoid valve assembly, characterized in that configured.

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